Title :
Neural classification of Lamb wave ultrasonic weld testing signals using wavelet coefficients
Author :
Legendre, Sylvie ; Massicotte, Daniel ; Goyette, Jacques ; Bose, Tapan K.
Author_Institution :
Hydrogen Res. Inst., Quebec Univ., Trois-Rivieres, Que., Canada
fDate :
6/1/2001 12:00:00 AM
Abstract :
This paper presents an ultrasonic nondestructive weld testing method based on the wavelet transform (WT) of inspection signals and their classification by a neural network (NN). The use of Lamb waves generated by an electromagnetic acoustic transducer (EMAT) as a probe allows us to test metallic welds. In this work, the case of an aluminum weld is treated. The feature extraction is made by using a method of analysis based on the WT of the ultrasonic testing signals; a classification process of the features based on a neural classifier to interpret the results in terms of weld quality concludes the process. The aim of this complete process of analysis and classification of the testing ultrasonic signals is to lead to an automated system of weld or structure testing. Results of real-world ultrasonic Lamb wave signal analysis and classifications for an aluminum weld are presented; these demonstrate the feasibility and efficiency of the proposed method
Keywords :
acoustic signal processing; aluminium; feature extraction; image classification; neural nets; surface acoustic waves; ultrasonic materials testing; wavelet transforms; Al; Al weld; EM acoustic transducer; Lamb wave; US testing; automated system; classification process; efficiency; feasibility; feature extraction; inspection signals; metallic welds; neural classification; neural classifier; neural network; ultrasonic weld testing signals; wavelet coefficients; wavelet transform; Acoustic testing; Aluminum; Automatic testing; Neural networks; Nondestructive testing; Signal analysis; Signal processing; System testing; Wavelet transforms; Welding;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
